final report - jica2 type i (b=1.5m x h=2.0m) table a.5.2 design result for box culvert type i 600...
TRANSCRIPT
Japan International Cooperation Agency (JICA)
Earthquake Reconstruction and Rehabilitation Authority (ERRA)
Urgent Rehabilitation Project: West Bank Bypass Design
Under the Urgent Development Study on
Rehabilitation and Reconstruction in Muzaffarabad City
In the Islamic Republic of Pakistan
FINAL REPORT
APPENDIX F STRUCTURAL CALCULATION (Culvert and Retaining Wall)
March 2008
NIPPON KOEI CO., LTD.
APPENDIX F Table of Contents
Structrual Calculation of Box Culverts ................................................................................................1 Structrual Calculation of Pipe Culverts ..............................................................................................13 Structrual Calculation of Retaining Wall ...........................................................................................17
1
Structural Calculation of Box Culverts
2
Type I (B=1.5m x H=2.0m)
Table A.5.2 Design Result for Box Culvert Type I
Source: JICA Study Team
kN・m
kN
kN
cm2
cm2
mm 13 13 13 13 13 13 13 13 13
mm 125 125 125 125 125 125 125 125 125
mm 100 100 100 100 100 100 110 110 110
σc N/mm2
σs N/mm2
τm N/mm2
σca N/mm2
σsa N/mm2
τa N/mm2
Schematic Figure
Stress Calculation Position
Member Top Slab Side Wall Bottom Slab
Calculation Position ① ② ③ ④ ⑤ ⑥ ⑦ ⑧ ⑨
Reinforcing Diagram
Sectional
Force
M -10.8 12.7 -10.8 -14.3 4.8 -16.5 -12.6 12.4 -12.6
N 47.4 10.3 47.4 69.2 26.1 83.1 59.0 12.5 59.0
S 53.5 38.2 -53.5 -40.1 37.0 47.8 -63.6 47.3 63.6
Reinfrocing
Required 1.30 2.93 1.30 1.33 0.27 1.47 1.48 3.39 1.48
Dimension
Design 10.14 10.14 10.14 10.14 10.14 10.14
Dia.
10.14 10.14 10.14
Pitch
oncrete Cove
Stress Design 1.69 2.25 1.69 2.20 0.71 2.53 2.07 2.31 2.07
29.79 58.69 29.79 35.39 10.33 39.39 34.21 63.75 34.21
0.268 0.191 0.268 0.200 0.185 0.239 0.335 0.249 0.335
Allwoable 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00
180.00 180.00 180.00 180.00 180.00 180.00 180.00 180.00 180.00
0.780 0.390 0.780 0.780 0.390 0.780 0.780 0.390 0.780
①
②④
⑤
⑥
⑦
⑧
③
⑨
2100
3001500
300
2600
600
300
2000
300
200
200
200
200
3
Mom
ent D
iagr
amM
ain
Rei
nfor
cing
Con
cret
e C
over
Sec
tiona
l For
ce a
nd R
einf
orci
ng S
ched
ule
(B x
H =
1.0
m x
2.0
m)
-1.6
12.7
-1.6
-3.3 5.5
-5.1
-3.3
5.5 -
5.1
-1.1
12.4
-1.1
D13
D13
D13
D13
D13
D13
D13
D13
D13
D13
100100
頂版
部
100
100
側壁
部
-10.8
-0.2
-10.8
-14.3 -
4.5
-16.5
-14.3
-4.5
-16.5
-12.6
1.5
-12.6
110110
底版
部
Top
Slab
Botto
m S
lab
Side
Wal
l
4
Type II (B=2.0m x H=2.5m)
Table A.5.3 Design Result for Box Culvert Type II
Source: JICA Study Team
kN・m
kN
kN
cm2
cm2
mm 13 13 13 13 13 13 13 13 13
mm 125 125 125 125 125 125 125 125 125
mm 100 100 100 100 100 100 110 110 110
σc N/mm2
σs N/mm2
τm N/mm2
σca N/mm2
σsa N/mm2
τa N/mm2
Schematic Figure
Dimension Stress Calculation Position
Member Top Slab Side Wall Bottom Slab
Calculation Position ① ② ③ ④ ⑤ ⑥ ⑦ ⑧ ⑨
Reinforcing Diagram
Sect
iona
lFo
rce M -20.1 17.4 -20.1 -24.8 8.3 -26.1 -24.9 19.6 -24.9
N 60.7 18.6 60.7 88.3 33.3 105.9 76.6 20.5 76.6
S 72.6 -57.3 -72.6 -53.3 52.8 63.0 -88.7 -60.9 88.7
Rei
nfro
cing
Required 3.72 4.52 3.72 3.71 0.94 3.48 3.32 4.10 3.32
Design 10.14 10.14 10.14 10.14 10.14 10.14
Dia.
10.14 10.14 10.14
Pitch
Concrete Cove
Stre
ss
Des
ign 3.30 2.98 3.30 4.03 1.32 4.16 2.97 2.49 2.97
72.32 83.87 72.32 77.87 23.99 75.14 66.08 76.40 66.08
0.363 0.287 0.363 0.267 0.264 0.315 0.369 0.254 0.369
Allw
oabl
e 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00
180.00 180.00 180.00 180.00 180.00 180.00 180.00 180.00 180.00
0.780 0.390 0.780 0.780 0.390 0.780 0.780 0.390 0.780
2600
3002000
300
3150
600
350
2500
300
200
200
200
200
①
②④
⑤
⑥
⑦
⑧
③
⑨
5
Mom
ent D
iagr
amM
ain
Rei
nfor
cing
Con
cret
e C
over
Sec
tiona
l For
ce a
nd R
einf
orci
ng S
ched
ule
(B x
H =
2.0
m x
2.5
m)
-5.2
17.4
-5.2
-6.5 9.5
-8.5
-6.5
9.5 -
8.5
-5.0
21.3
-5.0
D13
D13
D13
D13
D13
D13
D13
D13
D13
D13
100100
頂版
部
100
100
側壁
部
-20.1
0.1
-20.1
-24.8
-3.1
-26.1
-24.8
-3.1
-26.1
-24.9
2.1
-24.9
110110
底版
部
Top
Sla
b
Botto
m S
lab
Side
Wal
l
6
Type III (B=2.7m x H=2.0m)
Table A.5.4 Design Result for Box Culvert Type III
Source: JICA Study Team
kN・m
kN
kN
cm2
cm2
mm 13 13 13 13 13 13 13 13 13
mm 125 125 125 125 125 125 125 125 125
mm 100 100 100 100 100 100 110 110 110
σc N/mm2
σs N/mm2
τm N/mm2
σca N/mm2
σsa N/mm2
τa N/mm2 0.780 0.780 0.390 0.780 0.390 0.780 0.780 0.390
180.00 -180.00 180.00 -180.00 180.00 180.00 180.00 180.00
8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00
0.227 0.404 0.276 0.404 0.311 0.412 0.216 0.186
52.65 -2.35 176.63 -2.35 176.13 7.52 74.04 0.00
3.60 0.34 5.17 0.34 5.16 0.74 4.27 0.00
Concrete Cove
Stre
ss
Des
ign 0.76
7.08
0.412
Allw
oabl
e 8.00
180.00
0.780
10.14 10.14 10.14
Pitch
10.14 10.14 10.14
Dia.
Design 10.14 10.14 10.14
1.99 0.81 9.94 0.81
-117.3 79.9 117.3
Rei
nfro
cing
Required 0.00 9.91 0.00 3.36 0.88
34.9 49.8 34.9
S 102.9 -77.7 -102.9 -43.2 37.3 45.5
-5.0 55.1 -5.0
N 51.6 18.1 51.6 118.0 0.0 129.7
Sect
iona
lFo
rce M -7.8 42.8 -7.8 -27.1 0.0 -23.9
⑧ ⑨
Reinforcing Diagram
④ ⑤ ⑥ ⑦Calculation Position ① ② ③
Member Top Slab Side Wall Bottom Slab
Schematic Figure
Stress Calculation PositionDimension
3300
3002700
300
2750
600
400
2000
350
200
200
200
200
①
②④
⑤
⑥
⑦
⑧
③
⑨
7
Mom
ent D
iagr
amM
ain
Rei
nfor
cing
Con
cret
e C
over
Sec
tiona
l For
ce a
nd R
einf
orci
ng S
ched
ule
(B x
H =
2.7
m x
2.0
m)
-0.4
44.6
0.3
-7.1 0
.0
-8.1
-7.1
0.0 -
8.1
7.2
55.1
7.2
D13
D13
D13
D13
D13
D13
D13
D13
D13
D13
100100
頂版
部
100
100
側壁
部
-7.8
10.4
-7.8
-27.1
-16.2
-23.9
-27.1
-16.2
-23.9
-5.0
15.7
-5.0
-43.8
-43.8
-43.8
-43.2
-43.8
-43.2
-43.2
-43.2
110110
底版
部
Top
Slab
Botto
m S
lab
Side
Wal
l
8
Type IV (3@B=3.5m x H=3.0m)
Table A.5.5 Design Result for Box Culvert Type IV (Top Slab)
Source: JICA Study Team
kN・m
kN
kN
cm2
cm2
mm 13 16 16 16 16 16 13
mm 125 125 125 125 125 125 125
mm 100 100 100 100 100 100 100
σc N/mm2
σs N/mm2
τm N/mm2
σca N/mm2
σsa N/mm2
τa N/mm2
Schematic Figure
Stress Calculation PositionDimension
Member Top Slab
Calculation Position ① ② ③ ④ ⑤ ⑥ ⑦
Reinforcing Diagram
51.4 -34.2 18.1
Sectional
Force
M -25.4 59.6
S 105.3 -130.2
-25.4
N 40.6 54.6 54.6 65.3 13.8 10.2 40.6
-56.2
-147.7 108.7 -126.2 43.3 -40.4
Reinfrocing
Required 4.25 13.01 12.11 10.29 7.85 3.93 4.38
Design 10.14 15.89 15.89 15.89 15.89 15.89 10.14
Dia.
Pitch
ConcreteCover
Stress Design 3.07 6.13 5.78 5.28 3.52 1.86 3.05
84.24 149.38 139.65 121.92 92.22 47.69 84.99
0.421 0.521 0.591 0.435 0.505 0.173 0.162
Allwoable 8.00 8.00 8.00 8.00 8.00 8.00 8.00
180.00 180.00 180.00 180.00 180.00 180.00 180.00
0.780 0.390 0.780 0.390 0.780 0.390 0.780
11800
3503500
3003500
3003500
350
3750
600
400
3000
350
300
300
300
300
300
300
300
300
300
300
300
300
9
Table A.5.6 Design Result for Box Culvert Type IV(Bottom Slab)
Source: JICA Study Team
Table A.5.7 Design Result for Box Culvert Type IV (Wall)
Source: JICA Study Team
kN・m
kN
kN
cm2
cm2
mm 13 13 16 13 16 13 13
mm 125 125 125 125 125 125 125
mm 110 110 110 110 110 110 110
σc N/mm2
σs N/mm2
τm N/mm2
σca N/mm2
σsa N/mm2
τa N/mm2
Schematic Figure
Strecc Calculation PositionDimension
Member Bottom Slab
Calculation Position ⑭ ⑮ ⑯ ⑰ ⑱ ⑲ ⑳
Reinforcing Diagram
30.2 -73.8 40.5
Sectional
Force
M -43.9 46.7
S -134.2 -109.6
-29.9
N 19.3 -3.4 16.0 37.3 16.0 16.0 63.7
-73.8
-121.5 -101.6 -119.9 -102.1 59.9
Reinfrocing
Required 8.21 9.95 15.34 4.91 15.18 7.89 4.18
Design 10.14 10.14 15.89 10.14 15.89 10.14 10.14
Dia.
Pitch
ConcreteCover
Stress Design 4.27 4.44 5.95 2.82 6.02 3.83 2.73
148.57 176.91 174.12 91.04 172.63 141.84 74.01
0.463 0.378 0.419 0.350 0.414 0.352 0.207
Allwoable 8.00 8.00 8.00 8.00 8.00 8.00 8.00
180.00 180.00 180.00 180.00 180.00 180.00 180.00
0.780 0.390 0.780 0.390 0.780 0.390 0.780
11800
3503500
3003500
3003500
350
3750
600
400
3000
350
300
300
300
300
300
300
300
300
300
300
300
300
kN・m
kN
kN
cm2
cm2
mm 13 13 13 13 13 13 19 19 19 19
mm 125 125 125 125 125 125 125 125 125 125
mm 100 100 100 100 100 100 100 100 100 100
σc N/mm2
σs N/mm2
τm N/mm2
σca N/mm2
σsa N/mm2
τa N/mm2
Schematic Figure
Dimension Stress Calculation Position
Member Side Wall(Left) Side Wall(Right) Inside Wall(Left) Insede Wall(Right)
Calculation Position ⑧ ⑨ ⑩ ⑪ ⑫ ⑬ top edge bottom edge top edge bottom edge
Reinforcing Diagram
Sectional
Force
M -27.1 7.9 -60.7 -27.1 7.9 -30.0 -58.9 -32.3 -40.2 -12.3
N 49.0 64.7 151.7 49.0 64.7 53.8 238.5 234.8 217.2 107.7
S -48.8 81.0 92.0 37.7 -46.8 -53.8 41.6 41.6 30.2 30.2
Reinfrocing
Required 4.50 0.90 9.74 4.50 0.00 5.04 18.28 2.79 3.93 0.81
Design 10.14 10.14 10.14 10.14 10.14 10.14 22.92 22.92 22.92 22.92
Dia.
Pitch
ConcreteCover
Stress Design 3.23 0.69 7.06 3.23 0.69 3.57 7.52 3.86 4.99 1.42
87.53 -4.74 173.99 87.53 -4.74 96.98 90.00 27.23 49.34 -7.19
0.195 0.324 0.368 0.151 0.187 0.215 0.208 0.208 0.151 0.151
Allwoable 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00
180.00 -180.00 180.00 180.00 -180.00 180.00 180.00 180.00 180.00 -180.00
0.780 0.390 0.780 0.780 0.390 0.780 0.780 0.780 0.780 0.780
11800
3503500
3003500
3003500
350
3750
600
400
3000
350
300
300
300
300
300
300
300
300
300
300
300
300
10
Mom
ent D
iagr
amM
ain
Rei
nfor
cing
Con
cret
e C
over
Sec
tiona
l For
ce a
nd R
einf
orci
ng S
ched
ule
(B x
H =
3@
3.5m
x 3
.0m
)
6.2
59.6
-16.3
51.9
-14.5
18.1
9.4
-3.9 7.9
3.3
1.3
7.9
3.3
24.5
46.7
-15.6
33.0
12.9
40.524.5
D13
D16
D13
D13
D16
D13
D16
D13
D13
D13
D19
D19
D19
D19
D13
D13
D13
D13
D13
D13
D13
D13
D13
D13
D13
D13
100100
頂版部
100
100
側壁部
-25.4
4.7
-56.8
-5.5
-34.2
4.7
-25.4
-27.1
-17.9
-60.7
-27.1
-2.8 -30.0
-43.9
16.8
-73.8
12.3
-73.8
16.8
-29.9
110110
底版部
Top
Slab
Botto
m S
lab
Side
Wal
l
11
Type V (B=5.5m x H=3.0m)
Table A.5.8 Design Result for Portal Culvert Type V
Source: JICA Study Team
kN・m
kN
kN
cm2
cm2
mm 19 19 19 19 19 13 13 13
mm 125 125 125 125 125 125 125 125
mm 10 10 10 10 10 10 11 11
σc N/mm2
σs N/mm2
τm N/mm2
σca N/mm2
σsa N/mm2
τa N/mm2
*note: see check by stirrup in Appendices.
Schematic Figure
Dimension Stress Calculation Position
Member Top Slab Side Wall Bottom Footing
Calculation Position ① ② ③ ④ ⑤ ⑥ ⑦ ⑧
Reinforcing Diagram
Sect
iona
lFo
rce M -103.0 146.5 -103.0 -165.1 -158.5 -31.7 -23.2 -41.7
N 75.7 85.5 75.7 216.0 217 249.1 0 0
S 204.6 178.9 -204.6 -82.4 -75.4 22.8 37.2 -66.6
Rei
nfro
cing
Required 13.53 20.59
Design 22.92 22.92
Pitch
Concrete Cove
13.53 19.66 18.51 0 2.69 4.94
22.92 13.136 22.92 22.92
Dia.
Stre
ss
Des
ign 4.22 5.80
0.512 0.447*
0.780 0.390
4.22 6.66 6.39 1,21 0.95 1.71
110.29 163.05 110.29 156.66 148.39 -13.35 50.36 90.5
0.512 0.206 0.188 0.057 0.084 0.15
Allw
oabl
e 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00
180.00 180.00 180.00 180.00 180.00 180.00 180.00 180.00
3.029 3.041 0.780 0.780 0.390 0.780
①
②④
⑤
⑥
⑦ ⑧
③
12
Mom
ent D
iagr
amM
ain
Rei
nfor
cing
Con
cret
e C
over
Sec
tiona
l For
ce a
nd R
einf
orci
ng S
ched
ule
(B x
H =
5.0
m x
3.0
m)
100100
頂版
部
100
100
側壁
部
110110
底版
部
Top
Slab
Botto
m S
lab
Side
Wal
l
-97.6
146.5
-97.6
-165.1
-158.5
-31.7
-165.1
-158.5
-31.7
-41.7
-23.2
-41.7
-23.2
-210.5
-210.5
-210.5
-210.5
204.6
178.9
-178.9
-204.6
-82.4
-75.4
-25.0
-3.8
82.4
75.4
25.0
3.8
-66.6
37.2
66.6
-37.2
(at
Cas
e 5
)
(at
Cas
e 5)
13
Structural Calculation of Pipe Culverts
14
Pipe Culvert Design (910mm)
1.Design Conditions (1) Type of Pipe Culvert RC Pipe Culvert (2) Pipe Diameter 910mm (3) Unit Weight of Backfill Material 18kN/m3 (4) Live Loading A-Loading (5) Effective Support Angle 180degree (6) Concrete Design Compressive Strength 24N/mm2 Allowable Stress 8N/mm2 (7) Reinfrocing Steel Yeild Strength 295N/mm2 Allowable Bending Compressive Stress 180N/mm2
(8) Earth Fill Height
0.6m
(9) Unit Length 1m
2.Loading (1) Dead Load by Earth back fill (Standard Installation Type)
where:
γ (unit weight of soil) 1.8
Cc (coefficient of vertical earth pressure) 0.61
Bc (pipe outside diameter) 1.2
K (Coefficent: when sandy soil 0.4 cohesive soil :0.8) 0.8
h (Earth Fill Height) 0.6
qd= 1.33
(kgf/m2)) (kN/m2BcCcqd ⋅⋅= γ
KBchk
Cc1)exp( −⋅
=
15
(2) Live Load
A-Loading
where:
I (impact coefficent) 0.3
h (Earth Fill Height) 0.6
ql= 37.6 kN/m
3 Design of Culvert
(1) Maximum Bending Moment
k (coefficient for effective support angle:refer to the following table)
Foundation Type
Support Angle
K
60° 0.378
90° 0.314
Sandy Soil
120° 0.275
90° 0.303
120° 0.243
Concrete
180° 0.220
K= 0.314
r= 0.555
case 1 (A-Loading)
( ))2254.0(638.2
1111h
ikNql++⋅
=
))(()( 2 mkgfmkNrqlqdkM ⋅⋅+=
16
M= 3.767 kNm
(2) Reinforcement Reinforce Arrangement D10@200 (3.567cm2/m)
Wall Thickness 100mm
(Bending Stress) σc(N/mm2) 5.5 <8N/mm2 σs(N/mm2) 162.2 <180N/mm2 σs'(N/mm2) 22 <180N/mm2 (Resistant Moment) Mr(kN.m) 5.724 > 3.767 kNm (OK)
17
Structural Calculation of Retaining Wall
18
B6
B3
B
H1
B1
H200
100
B5 B4
B2
RC T-Shaped Unit B B1 B2 B3 B4 B5 B6 H1
H=7.00m mm 4,800 124 400 3,476 800 700 3,300 800
H=6.00m mm 4,000 106 400 2,894 600 600 2,800 700
H=5.00m mm 3,400 88 350 2,362 600 500 2,300 600
H=4.00m mm 2,800 70 350 1,980 400 500 1,900 500 Source: JICA Study Team
Figure A.5.22 Typical Structural Detail for T-Shaped Retaining Wall
L
H
1:0.50
350
150
100
550
350
200
Stone Masonry
(Learning) Unit L
H=5.00m mm 5,590
19
H=4.50m mm 5,031
H=4.00m mm 4,473
H=3.50m mm 3,913
H=3.00m mm 3,354 Source: JICA Study Team
Figure A.5.23 Typical Structural Detail for Stone Masonry (Learning)
B
H
1:0.30
200
400
Stone Masonry
(Gravity) Unit B
H=5.00m mm 4,000
H=4.00m mm 3,250
H=3.00m mm 2,400 Source: JICA Study Team
Figure A.5.24 Typical Structural Detail for Stone Masonry (Gravity)